package com.sxhalo.fsms.domain;

import java.math.BigDecimal;

public class DeviceEmRunningData extends DeviceEmRunningDataKey {
    public Integer online;

    public Integer close;

    public Integer trip;

    public Integer tripCode;

    public BigDecimal phaseaVoltage;

    public BigDecimal phasebVoltage;

    public BigDecimal phasecVoltage;

    public BigDecimal uabLineVoltage;

    public BigDecimal ubcLineVoltage;

    public BigDecimal ucaLineVoltage;

    public BigDecimal phaseaCurrent;

    public BigDecimal phasebCurrent;

    public BigDecimal phasecCurrent;

    public BigDecimal zeroLineCurrent;

    public BigDecimal phaseaActivePower;

    public BigDecimal phasebActivePower;

    public BigDecimal phasecActivePower;

    public BigDecimal activePower;

    public BigDecimal phaseaReactivePower;

    public BigDecimal phasebReactivePower;

    public BigDecimal phasecReactivePower;

    public BigDecimal reactivePower;

    public BigDecimal phaseaApparentPower;

    public BigDecimal phasebApparentPower;

    public BigDecimal phasecApparentPower;

    public BigDecimal apparentPower;

    public BigDecimal phaseaPowerFactor;

    public BigDecimal phasebPowerFactor;

    public BigDecimal phasecPowerFactor;

    public BigDecimal powerFactor;

    public BigDecimal current;

    public BigDecimal voltage;

    public BigDecimal gridFrequency;

    public BigDecimal totalActiveEnergy;

    public BigDecimal totalActiveEnergy1;

    public BigDecimal totalActiveEnergy2;

    public BigDecimal totalActiveEnergy3;

    public BigDecimal totalActiveEnergy4;

    public BigDecimal positiveActiveEnergy;

    public BigDecimal positiveActiveEnergy1;

    public BigDecimal positiveActiveEnergy2;

    public BigDecimal positiveActiveEnergy3;

    public BigDecimal positiveActiveEnergy4;

    public BigDecimal negativeActiveEnergy;

    public BigDecimal negativeActiveEnergy1;

    public BigDecimal negativeActiveEnergy2;

    public BigDecimal negativeActiveEnergy3;

    public BigDecimal negativeActiveEnergy4;

    public BigDecimal reactiveEnergy;

    public BigDecimal reactiveEnergy1;

    public BigDecimal reactiveEnergy2;

    public BigDecimal reactiveEnergy3;

    public BigDecimal reactiveEnergy4;

    public Integer getOnline() {
        return online;
    }

    public void setOnline(Integer online) {
        this.online = online;
    }

    public Integer getClose() {
        return close;
    }

    public void setClose(Integer close) {
        this.close = close;
    }

    public Integer getTrip() {
        return trip;
    }

    public void setTrip(Integer trip) {
        this.trip = trip;
    }

    public Integer getTripCode() {
        return tripCode;
    }

    public void setTripCode(Integer tripCode) {
        this.tripCode = tripCode;
    }

    public BigDecimal getPhaseaVoltage() {
        return phaseaVoltage;
    }

    public void setPhaseaVoltage(BigDecimal phaseaVoltage) {
        this.phaseaVoltage = phaseaVoltage;
    }

    public BigDecimal getPhasebVoltage() {
        return phasebVoltage;
    }

    public void setPhasebVoltage(BigDecimal phasebVoltage) {
        this.phasebVoltage = phasebVoltage;
    }

    public BigDecimal getPhasecVoltage() {
        return phasecVoltage;
    }

    public void setPhasecVoltage(BigDecimal phasecVoltage) {
        this.phasecVoltage = phasecVoltage;
    }

    public BigDecimal getUabLineVoltage() {
        return uabLineVoltage;
    }

    public void setUabLineVoltage(BigDecimal uabLineVoltage) {
        this.uabLineVoltage = uabLineVoltage;
    }

    public BigDecimal getUbcLineVoltage() {
        return ubcLineVoltage;
    }

    public void setUbcLineVoltage(BigDecimal ubcLineVoltage) {
        this.ubcLineVoltage = ubcLineVoltage;
    }

    public BigDecimal getUcaLineVoltage() {
        return ucaLineVoltage;
    }

    public void setUcaLineVoltage(BigDecimal ucaLineVoltage) {
        this.ucaLineVoltage = ucaLineVoltage;
    }

    public BigDecimal getPhaseaCurrent() {
        return phaseaCurrent;
    }

    public void setPhaseaCurrent(BigDecimal phaseaCurrent) {
        this.phaseaCurrent = phaseaCurrent;
    }

    public BigDecimal getPhasebCurrent() {
        return phasebCurrent;
    }

    public void setPhasebCurrent(BigDecimal phasebCurrent) {
        this.phasebCurrent = phasebCurrent;
    }

    public BigDecimal getPhasecCurrent() {
        return phasecCurrent;
    }

    public void setPhasecCurrent(BigDecimal phasecCurrent) {
        this.phasecCurrent = phasecCurrent;
    }

    public BigDecimal getZeroLineCurrent() {
        return zeroLineCurrent;
    }

    public void setZeroLineCurrent(BigDecimal zeroLineCurrent) {
        this.zeroLineCurrent = zeroLineCurrent;
    }

    public BigDecimal getPhaseaActivePower() {
        return phaseaActivePower;
    }

    public void setPhaseaActivePower(BigDecimal phaseaActivePower) {
        this.phaseaActivePower = phaseaActivePower;
    }

    public BigDecimal getPhasebActivePower() {
        return phasebActivePower;
    }

    public void setPhasebActivePower(BigDecimal phasebActivePower) {
        this.phasebActivePower = phasebActivePower;
    }

    public BigDecimal getPhasecActivePower() {
        return phasecActivePower;
    }

    public void setPhasecActivePower(BigDecimal phasecActivePower) {
        this.phasecActivePower = phasecActivePower;
    }

    public BigDecimal getActivePower() {
        return activePower;
    }

    public void setActivePower(BigDecimal activePower) {
        this.activePower = activePower;
    }

    public BigDecimal getPhaseaReactivePower() {
        return phaseaReactivePower;
    }

    public void setPhaseaReactivePower(BigDecimal phaseaReactivePower) {
        this.phaseaReactivePower = phaseaReactivePower;
    }

    public BigDecimal getPhasebReactivePower() {
        return phasebReactivePower;
    }

    public void setPhasebReactivePower(BigDecimal phasebReactivePower) {
        this.phasebReactivePower = phasebReactivePower;
    }

    public BigDecimal getPhasecReactivePower() {
        return phasecReactivePower;
    }

    public void setPhasecReactivePower(BigDecimal phasecReactivePower) {
        this.phasecReactivePower = phasecReactivePower;
    }

    public BigDecimal getReactivePower() {
        return reactivePower;
    }

    public void setReactivePower(BigDecimal reactivePower) {
        this.reactivePower = reactivePower;
    }

    public BigDecimal getPhaseaApparentPower() {
        return phaseaApparentPower;
    }

    public void setPhaseaApparentPower(BigDecimal phaseaApparentPower) {
        this.phaseaApparentPower = phaseaApparentPower;
    }

    public BigDecimal getPhasebApparentPower() {
        return phasebApparentPower;
    }

    public void setPhasebApparentPower(BigDecimal phasebApparentPower) {
        this.phasebApparentPower = phasebApparentPower;
    }

    public BigDecimal getPhasecApparentPower() {
        return phasecApparentPower;
    }

    public void setPhasecApparentPower(BigDecimal phasecApparentPower) {
        this.phasecApparentPower = phasecApparentPower;
    }

    public BigDecimal getApparentPower() {
        return apparentPower;
    }

    public void setApparentPower(BigDecimal apparentPower) {
        this.apparentPower = apparentPower;
    }

    public BigDecimal getPhaseaPowerFactor() {
        return phaseaPowerFactor;
    }

    public void setPhaseaPowerFactor(BigDecimal phaseaPowerFactor) {
        this.phaseaPowerFactor = phaseaPowerFactor;
    }

    public BigDecimal getPhasebPowerFactor() {
        return phasebPowerFactor;
    }

    public void setPhasebPowerFactor(BigDecimal phasebPowerFactor) {
        this.phasebPowerFactor = phasebPowerFactor;
    }

    public BigDecimal getPhasecPowerFactor() {
        return phasecPowerFactor;
    }

    public void setPhasecPowerFactor(BigDecimal phasecPowerFactor) {
        this.phasecPowerFactor = phasecPowerFactor;
    }

    public BigDecimal getPowerFactor() {
        return powerFactor;
    }

    public void setPowerFactor(BigDecimal powerFactor) {
        this.powerFactor = powerFactor;
    }

    public BigDecimal getCurrent() {
        return current;
    }

    public void setCurrent(BigDecimal current) {
        this.current = current;
    }

    public BigDecimal getVoltage() {
        return voltage;
    }

    public void setVoltage(BigDecimal voltage) {
        this.voltage = voltage;
    }

    public BigDecimal getGridFrequency() {
        return gridFrequency;
    }

    public void setGridFrequency(BigDecimal gridFrequency) {
        this.gridFrequency = gridFrequency;
    }

    public BigDecimal getTotalActiveEnergy() {
        return totalActiveEnergy;
    }

    public void setTotalActiveEnergy(BigDecimal totalActiveEnergy) {
        this.totalActiveEnergy = totalActiveEnergy;
    }

    public BigDecimal getTotalActiveEnergy1() {
        return totalActiveEnergy1;
    }

    public void setTotalActiveEnergy1(BigDecimal totalActiveEnergy1) {
        this.totalActiveEnergy1 = totalActiveEnergy1;
    }

    public BigDecimal getTotalActiveEnergy2() {
        return totalActiveEnergy2;
    }

    public void setTotalActiveEnergy2(BigDecimal totalActiveEnergy2) {
        this.totalActiveEnergy2 = totalActiveEnergy2;
    }

    public BigDecimal getTotalActiveEnergy3() {
        return totalActiveEnergy3;
    }

    public void setTotalActiveEnergy3(BigDecimal totalActiveEnergy3) {
        this.totalActiveEnergy3 = totalActiveEnergy3;
    }

    public BigDecimal getTotalActiveEnergy4() {
        return totalActiveEnergy4;
    }

    public void setTotalActiveEnergy4(BigDecimal totalActiveEnergy4) {
        this.totalActiveEnergy4 = totalActiveEnergy4;
    }

    public BigDecimal getPositiveActiveEnergy() {
        return positiveActiveEnergy;
    }

    public void setPositiveActiveEnergy(BigDecimal positiveActiveEnergy) {
        this.positiveActiveEnergy = positiveActiveEnergy;
    }

    public BigDecimal getPositiveActiveEnergy1() {
        return positiveActiveEnergy1;
    }

    public void setPositiveActiveEnergy1(BigDecimal positiveActiveEnergy1) {
        this.positiveActiveEnergy1 = positiveActiveEnergy1;
    }

    public BigDecimal getPositiveActiveEnergy2() {
        return positiveActiveEnergy2;
    }

    public void setPositiveActiveEnergy2(BigDecimal positiveActiveEnergy2) {
        this.positiveActiveEnergy2 = positiveActiveEnergy2;
    }

    public BigDecimal getPositiveActiveEnergy3() {
        return positiveActiveEnergy3;
    }

    public void setPositiveActiveEnergy3(BigDecimal positiveActiveEnergy3) {
        this.positiveActiveEnergy3 = positiveActiveEnergy3;
    }

    public BigDecimal getPositiveActiveEnergy4() {
        return positiveActiveEnergy4;
    }

    public void setPositiveActiveEnergy4(BigDecimal positiveActiveEnergy4) {
        this.positiveActiveEnergy4 = positiveActiveEnergy4;
    }

    public BigDecimal getNegativeActiveEnergy() {
        return negativeActiveEnergy;
    }

    public void setNegativeActiveEnergy(BigDecimal negativeActiveEnergy) {
        this.negativeActiveEnergy = negativeActiveEnergy;
    }

    public BigDecimal getNegativeActiveEnergy1() {
        return negativeActiveEnergy1;
    }

    public void setNegativeActiveEnergy1(BigDecimal negativeActiveEnergy1) {
        this.negativeActiveEnergy1 = negativeActiveEnergy1;
    }

    public BigDecimal getNegativeActiveEnergy2() {
        return negativeActiveEnergy2;
    }

    public void setNegativeActiveEnergy2(BigDecimal negativeActiveEnergy2) {
        this.negativeActiveEnergy2 = negativeActiveEnergy2;
    }

    public BigDecimal getNegativeActiveEnergy3() {
        return negativeActiveEnergy3;
    }

    public void setNegativeActiveEnergy3(BigDecimal negativeActiveEnergy3) {
        this.negativeActiveEnergy3 = negativeActiveEnergy3;
    }

    public BigDecimal getNegativeActiveEnergy4() {
        return negativeActiveEnergy4;
    }

    public void setNegativeActiveEnergy4(BigDecimal negativeActiveEnergy4) {
        this.negativeActiveEnergy4 = negativeActiveEnergy4;
    }

    public BigDecimal getReactiveEnergy() {
        return reactiveEnergy;
    }

    public void setReactiveEnergy(BigDecimal reactiveEnergy) {
        this.reactiveEnergy = reactiveEnergy;
    }

    public BigDecimal getReactiveEnergy1() {
        return reactiveEnergy1;
    }

    public void setReactiveEnergy1(BigDecimal reactiveEnergy1) {
        this.reactiveEnergy1 = reactiveEnergy1;
    }

    public BigDecimal getReactiveEnergy2() {
        return reactiveEnergy2;
    }

    public void setReactiveEnergy2(BigDecimal reactiveEnergy2) {
        this.reactiveEnergy2 = reactiveEnergy2;
    }

    public BigDecimal getReactiveEnergy3() {
        return reactiveEnergy3;
    }

    public void setReactiveEnergy3(BigDecimal reactiveEnergy3) {
        this.reactiveEnergy3 = reactiveEnergy3;
    }

    public BigDecimal getReactiveEnergy4() {
        return reactiveEnergy4;
    }

    public void setReactiveEnergy4(BigDecimal reactiveEnergy4) {
        this.reactiveEnergy4 = reactiveEnergy4;
    }
}